Engineering & Materials Science
Soldering alloys
90%
Microstructure
67%
Electric arc welding
40%
Welds
38%
Tungsten
36%
Residual stresses
35%
Drilling
33%
Intermetallics
33%
Welding
28%
Mechanical properties
27%
Temperature
26%
Electric discharge machining
26%
Fusion reactions
25%
Intergranular corrosion
25%
Corrosion resistance
25%
Cooling
24%
Niobium
23%
Precipitates
22%
Adhesives
22%
Tool steel
22%
Shear strength
20%
Hot Temperature
20%
Hardness
20%
Microhardness
20%
Grain boundaries
19%
Nickel
19%
Laser beam welding
19%
Lead-free solders
19%
Crystal microstructure
18%
Machining
18%
Stress measurement
18%
Gases
17%
Heat affected zone
17%
Filler metals
16%
Lanthanum
16%
Superalloys
16%
Corrosion
15%
Electron beam welding
15%
Temperature distribution
15%
Dendrites (metallography)
15%
Microstructural evolution
14%
Cracks
14%
Metals
14%
Electrodes
14%
Strain gages
13%
Carbides
13%
Lasers
13%
Eutectics
12%
Copper
12%
Tensile strength
12%
Chemical Compounds
Solder
100%
Alloy
70%
Microstructure
61%
Machining
52%
Residual Stress
47%
Cooling
32%
Adhesive Strength
32%
Intermetallic Compound
31%
Tungsten
27%
Corrosion Resistance
23%
Sensitization
21%
Grain Boundary
21%
Grain Size
21%
Shear Strength
21%
Heat
20%
Ductility
19%
Tensile Strength
18%
Microhardness
18%
Metal
18%
Superalloys
17%
Gas
15%
Forging
13%
Filler
13%
Surface
12%
Strength
12%
Thermomechanical Effect
12%
Electron Beam
12%
Corrosion
11%
White
11%
Behavior as Electrode
10%
Brittle Fracture
10%
Strain Energy
8%
Eutectics
8%
Aluminium Alloy
8%
Voltage
7%
Surface Roughness
7%
Laser Surface Treatment
7%
Grain Growth
6%
Time
6%
Surface Melting
6%
Shape
6%
Solidification
6%
Grain Refinement
6%
Chemical Transformation
6%
Magnetostriction
6%
Simulation
5%
Resistance
5%
Plastic Deformation
5%
Physics & Astronomy
solders
71%
microstructure
45%
drilling
32%
machining
27%
welding
24%
fusion
24%
adhesives
23%
residual stress
21%
Inconel (trademark)
20%
gas tungsten arc welding
20%
mechanical properties
19%
intermetallics
19%
niobium
18%
precipitates
16%
electron beam welding
16%
heat resistant alloys
15%
tensile strength
15%
corrosion resistance
13%
stress measurement
13%
metals
13%
nickel
13%
corrosion
12%
fillers
12%
magnetostriction
12%
microhardness
12%
grain size
12%
dendrites
11%
shear strength
11%
hardness
10%
stainless steels
10%
butt joints
9%
ductility
9%
tensile tests
9%
temperature distribution
9%
copper
9%
cracks
9%
strain gages
8%
cooling
8%
temperature
8%
matrices
8%
fine structure
8%
shape memory alloys
8%
integrity
8%
grain boundaries
7%
electrodes
7%
forging
7%
evaluation
7%
pulses
7%
carbides
7%
heat affected zone
6%